Object Distance Measurement Method and System Based on Camera

1. An object distance measurement method, comprising: receiving an image captured by a camera of a vehicle; extracting, from the captured image, a bounding box area of an object included in the captured image; estimating a location change of the camera for a predetermined time period; and calculating a distance to the object based on the estimated location change of the camera, wherein receiving the captured image comprises: receiving a first image captured by the camera at a first location; and receiving a second image captured by the camera at a second location after the predetermined time period has elapsed since the first image was captured, wherein the distance to the object is calculated based on the estimated location change of the camera from the first location to the second location, and wherein estimating the location change of the camera comprises: setting the first location of the camera as an original location and setting a driving direction of the vehicle as a point on a y-axis; and estimating a coordinate value of the second location based on (1) the predetermined time period, and (2) vehicle velocity and vehicle steering angle of the vehicle at the first location.

2. The object distance measurement method of claim 1, wherein calculating the distance to the object comprises: acquiring a first pixel coordinate value for a first pixel corresponding to a first location of the object on an image plane of the first image; calculating a first straight line equation passing through the first pixel coordinate value based on the original location; acquiring a second pixel coordinate value for a second pixel corresponding to a second location of the object on an image plane of the second image; calculating a second straight line equation passing through a coordinate value of the second location and the second pixel coordinate value based on (1) the coordinate value of the second location, (2) the second pixel coordinate value, and (3) vehicle steering angle of the vehicle at the second location; and calculating the distance to the object based on a coordinate of an intersection between the first and second straight line equations.

3. The object distance measurement method of claim 2, wherein the first and second pixel coordinate values are respectively calculated based on focus information of the camera and a physical horizontal location of a pixel corresponding to the first and second locations.

4. A system for calculating a distance to an object based on an image captured by a camera positioned at a front portion of a vehicle, the system comprising: a processor; and a memory in communication with the processor and storing instructions that, when executed by the processor, cause the processor to control the system to perform: receiving the image captured by the camera; extracting a bounding box area of the object included in the captured image; estimating a location change of the camera for a predetermined time period; and calculating a distance to the object based on the estimated location change of the camera, wherein, for receiving the image captured by the camera, the instructions, when executed by the processor, further cause the processor to control the system to perform: receiving a first image captured by the camera at a first location; and receiving a second image captured by the camera at a second location after the predetermined time period has elapsed since the first image was captured, wherein the distance to the object is calculated based on the estimated location change of the camera from the first location to the second location, and wherein, for estimating the location change of the camera, the instructions, when executed by the processor, further cause the processor to control the system to perform: setting the first location of the camera as an original location and setting a driving direction of the vehicle as a point on a y-axis; and estimating a coordinate value of the second location based on (1) the predetermined time period, and (2) vehicle velocity and vehicle steering angle of the vehicle at the first location.